Yes- Evaporation take place regardless of the sun. Say we put a glass of water on a table, and leave it there for months/years. It will eventually evaporate, although it is a lot slower than in the sun.

The wind just helps to remove the water vapour in the clothings. This is just like a hand-dryer, except without the heat. It still works, but less fast, although the wind is actually better to evaporate the water than just sheer sunlight.

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Air can contain a certain quantity of water, depending on temperature.If it contains that amount of water, it is said that "relative humidity is 100 %". If relative humidity is not 100 %, water can evaporate from your clothes (or from that glass) until relative humidity of the air immediately around is 100 %. Now the effect of wind is that this air immediately around the wet clothes is constantly replaced. So air at 100 % RH is replaced by air at lower humidity, and evaporation can go on.

another_someone

Evaporation depends upon the difference between the capacity of the air to absorb water and the amount of humidity in the water itself.

If you put some ice in a frost free freezer, that ice will evaporate (the frost free freezer works by making sure the air in the freezer is dry enough that any buildup of ice will evaporate, and that there is enough air circulating around the freezer to draw the moistened air our of the freezer).

All the heat of the sun does is increase the capacity of the air to hold moisture, and if that moisture is not already in the air, then it can absorb the moisture from the damp clothing. If you have a hot sun in air that is already saturated with humidity, it will not dry anything.

Evaporation depends upon the difference between the capacity of the air to absorb water and the amount of humidity in the water itself.

If you put some ice in a frost free freezer, that ice will evaporate (the frost free freezer works by making sure the air in the freezer is dry enough that any buildup of ice will evaporate, and that there is enough air circulating around the freezer to draw the moistened air our of the freezer).

All the heat of the sun does is increase the capacity of the air to hold moisture, and if that moisture is not already in the air, then it can absorb the moisture from the damp clothing. If you have a hot sun in air that is already saturated with humidity, it will not dry anything.

paul.fr

All the heat of the sun does is increase the capacity of the air to hold moisture, and if that moisture is not already in the air, then it can absorb the moisture from the damp clothing. If you have a hot sun in air that is already saturated with humidity, it will not dry anything.

All the heat of the sun does is increase the capacity of the air to hold moisture, and if that moisture is not already in the air, then it can absorb the moisture from the damp clothing. If you have a hot sun in air that is already saturated with humidity, it will not dry anything.

This is not strictly true the reason things dry, is that more water is evaporating from them than condensing on them, if the humidity is 100% this means that there is so much water in the air that a bowl of water at the same temperature as the air would gain as much water as it lost.

However if you bring the sun into it, the washing can be considerably warmer than the air around it. So the rate of evaporation will be increased for the clothes, but the rate of condensation cannot increase, so your clothes will dry, and the hot water molecules leaving your clothes will warm up the air they move into.

As soon as the slightly warmed air that has been past your clothes cools down, the moisture will condense out of it forming a cloud of minute water droplets. Eg if you have a bowl of 80°C water on a cold damp day it will evaporate, and then the water vapour will condese again forming a cloud downwind - or think of the clouds coming of power station cooling towers, etc etc.